Walsh, M.
, Malarich, N.
, Egbert, S.
, Cole, R.
, Baumann, E.
, Rieker, G.
, Coddington, I.
, Cossel, K.
, Newbury, N.
and Genest, J.
(2024),
Systematic errors in dual-comb spectroscopy stemming from non-linear pulse interaction in common fiber, Optics Express, [online], https://doi.org/10.1364/OE.523623, https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=956543
(Accessed March 14, 2026)
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Systematic errors in dual-comb spectroscopy stemming from non-linear pulse interaction in common fiber
Published
Author(s)
Mathieu Walsh, Nathan Malarich, Scott Egbert, Ryan Cole, , GREGORY RIEKER, , , Nathan Newbury, Jerome Genest
Abstract
Systematic errors are experimentally observed in dual-comb spectroscopy when pulses from the two comb sources travel in a common fiber before interrogating the sample of interest. When interrogating a molecular gas these errors can varyingly distort both the observed molecular lineshapes and retrieved concentration. Simulations of the dual-comb interferograms based on a generalized non-linear Schrodinger equation highlight two sources for these systematic errors. First, self-phase modulation changes the spectral content of the field that interrogates the molecular response while not modifying the baseline interferogram accordingly. This effect leads to line intensity errors. Second, cross-phase modulation induces a pulse interaction that modifies the relative inter-pulse delay between combs, thus introducing interferogram sampling errors and creating a characteristic asymmetry on spectral lines. A quantitative understanding of these effects is critical for precise and accurate dual-comb spectroscopic measurements of gases, including greenhouse gases.Citation
Optics Express
Volume
32
Issue
11
Pub Type
Journals
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Created May 20, 2024, Updated March 11, 2026